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'Selecting High-Speed Operational Amplifiers …

Application ReportSLOA051A November 20001 selecting High-Speed Operational Amplifiers made EasyBruce CarterAdvanced Analog ProductsABSTRACTHigh- speed op amps come in current- and voltage-feedback versions. Voltage-feedbackamplifiers are sometimes de-compensated to allow greater speed , but this technique hasbeen superceded by current-feedback Amplifiers . Differential-output op amps are gainingpopularity for transformerless A/D Feedback and Current Op Op Current-Feedback Op vs Uncompensated Op vs Single-Ended Op It All Together: selecting the Right High-Speed Op Differential Voltage-Feedback Op Current-Feedback Op Stage Topology for Voltage and Current-Feedback Op of a Current-Feedback Op Amp as a Unity Gain Pass Filter With a Current Feedba

SLOA051A Selecting High-Speed Operational Amplifiers Made Easy 7 Decompensated op amps have not been widely successful …

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Transcription of 'Selecting High-Speed Operational Amplifiers …

1 Application ReportSLOA051A November 20001 selecting High-Speed Operational Amplifiers made EasyBruce CarterAdvanced Analog ProductsABSTRACTHigh- speed op amps come in current- and voltage-feedback versions. Voltage-feedbackamplifiers are sometimes de-compensated to allow greater speed , but this technique hasbeen superceded by current-feedback Amplifiers . Differential-output op amps are gainingpopularity for transformerless A/D Feedback and Current Op Op Current-Feedback Op vs Uncompensated Op vs Single-Ended Op It All Together.

2 selecting the Right High-Speed Op Differential Voltage-Feedback Op Current-Feedback Op Stage Topology for Voltage and Current-Feedback Op of a Current-Feedback Op Amp as a Unity Gain Pass Filter With a Current Feedback Op Low Pass Filter With Current Feedback Op of Capacitance at the Inverting Capacitance Causes Capacitance Can Be Isolated With a Compensation for Load Compensation for Inverting-Input Method of Interfacing to Differential-Input A/D Differential A/D and Current-Feedback Op Amp High-Speed Operational Amplifiers made Easy1 IntroductionThe availability of High-Speed Operational Amplifiers (op amps) is relatively recent.

3 Mostdesigners are either unaware of the differences between high - and low- speed op amps, or areintimidated by them. This note is written to make the basic concepts of High-Speed op ampseasy to understand. It is intended as a guide for designers who must specify and use a High-Speed op Voltage Feedback and Current FeedbackThere are two basic types of High-Speed op amp[1], voltage and current feedback. A brief reviewof these types of op amps Voltage-Feedback Op AmpsThe voltage-feedback op amp is familiar to designers. Its ideal form is shown in Figure 1.

4 Ideal Voltage-Feedback Op AmpThe gain of an ideal voltage-feedback op amp is given by:eOVaV =where VO is the output voltage, a is the open-loop voltage gain, and Ve (= Vp Vn) is the no op amp is ideal, modern processing techniques yield devices that come close, atleast in some parameters. This is by design. In fact, different op amps are optimized to be closeto ideal for some parameters, while other parameters for the same op amp may be quiteordinary. It is a trade-off. Some parameters can be improved, but only at the expense of is the designer s function to select the op amp that is closest to ideal in ways that matter to theapplication, and to know which parameters can be discounted or dealing with High-Speed op amps, the parameters that are of most interest to the designerare bandwidth and slew rate.

5 In voltage-feedback Amplifiers , bandwidth is inversely related togain over the normal operating range of the op amp. This linear relationship is a 20 dB/dec roll-off caused by an internal compensation capacitor. This capacitor was introduced to solve aproblem that has plagued voltage-feedback op amps from the time they were first introduced,namely, instability ( , the tendency to oscillate). The technique works well, and it has allowedthe production of many varieties of voltage-feedback op amps over the years. Unfortunately, thecompensation capacitor also limits the response of the op amp at high High-Speed Operational Amplifiers made Current-Feedback Op AmpsThere is much confusion amongst designers as to exactly what a current-feedback op amp term current feedback refers to the internal construction of the op amp, not to somethingexternal to it.

6 The ideal current-feedback op amp is shown in Figure 2. Ideal Current-Feedback Op AmpThe gain of an ideal current-feedback op amp is given by:teOZiV=where VO is output voltage, ie is the error current, and Zt is the open-loop transimpedance can be seen in Table 1 that the slew rate of a current feedback op amp is more than an orderof magnitude greater than that of a voltage feedback op 1. Voltage- and Current-Feedback CharacteristicsCHARACTERISTICVOLTAGEFEED BACKCURRENTFEEDBACKPart (MHz)300420 Slew rate (V/ s)4006500 Settling time (ns)3040I/O (mA)100100Op amp design is a series of trade-offs and an improvement in one parameter is alwaysaccompanied by degradation of others.

7 This is certainly the case with current-feedbackamplifiers where, to a degree, dc performance has been sacrificed to gain Applying Current-Feedback Op AmpsIt is important to resolve misconceptions about how to use current-feedback Amplifiers . Theaverage designer does not know how to build a gain stage with a current-feedback op there is the assumption that something esoteric is done with the traditional, familiar, gaintopologies. This is not true. In fact, as shown in Figure 3, there is no difference!SLOA051A4 selecting High-Speed Operational Amplifiers made EasyCURRENT FEEDBACKVOLTAGE FEEDBACKR1R1 INR2-VCCVOLTAGE FEEDBACKNONINVERTING GAINOUT+VCCIN-VCC-VCCININVERTING GAINR2 CURRENT FEEDBACKR2-VCCOUTR1+VCCOUT+VCCR2+VCCOUTI N+-mA741+-THS3001-+mA741-+THS3001R1 Figure 3.

8 Gain Stage Topology for Voltage and Current-Feedback Op AmpsThere are several do's and do not's for current-feedback op amps: first, the do not's: Do not use a current-feedback op amp as a traditionally configured unity gain buffer (outputconnected directly to inverting input)! Correct and incorrect unity gain buffers are shown inFigure 4:+VCCINOUT-VCC+VCC-+THS3001-+THS3001-VC CYESNO!!!INOUTF igure 4. Use of a Current-Feedback Op Amp as a Unity Gain BufferSLOA051 ASelecting High-Speed Operational Amplifiers made Easy5 Do not connect a capacitor from the output of a current-feedback op amp to thenoninverting input.

9 Designers will often do this when trying to implement a low-pass and incorrect ways to implement a low-pass filter with a current-feedback op ampare shown in Figure +VCC+VCCINR2C1NO!!!R2R1R3 OUT-VCC-VCC-+THS3001+-THS3001R1C1 OUTF igure 5. Low Pass Filter With a Current Feedback Op AmpThe correct way to implement a two-pole filter is to use the Sallen Key topology, as shown inFigure 6, adding the recommended feedback resistor for the current feedback +-THS3001-VCC+VCCC1R2 OUTF igure 6. Two-Pole Low Pass Filter With Current Feedback Op AmpsAlong with the do not's, there are some do's: Do watch the trace length on the inverting input.

10 Capacitance on this input, formed byparasitic capacitance with other layers and traces, will reduce the phase margin (seeFigure 7).SLOA051A6 selecting High-Speed Operational Amplifiers made EasyFigure 7. Effect of Capacitance at the Inverting InputParasitic capacitance comes primarily from PCB traces. Long or wide traces createcapacitance with ground planes and adjacent traces. Keep the inverting input trace short. The current-feedback op amp must have a resistor in the feedback loop. This resistor isusually specified in the data sheet for the device.


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